Antenna Engineering Using Physical Optics: Practical CAD Techniques and Software (Artech House Antenna Library)
| Author | : | |
| Rating | : | 4.90 (531 Votes) |
| Asin | : | 0890067325 |
| Format Type | : | paperback |
| Number of Pages | : | 342 Pages |
| Publish Date | : | 2015-07-27 |
| Language | : | English |
DESCRIPTION:
Shows how to combine physical optics modelling techniques with the free space dyadic Green's function to quickly calculate antenna patterns and diffraction from nearby objects. This work also shows how to apply basic routines to focus more time on the actual solution of antenna radiation problems.
in electrical engineering from Polytechnic Institute, New York. A member if the IEEE AP Society, Mr. in electrical engineering from Johns Hopkins University. Thomas Milligan is chief engineer at Milligan Associates, Inc. About the Author Leo Diaz is a staff consultant at Ball Telecommunications Products Division, Broomfield, CO. He earned his M.S. He received his M.S. . Milligan has served as an editor of both Transactions and Antenna Magazine
Leo Diaz said errata. Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po1errata Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. c, po15d, and po17b, most resulting from calls to previous versions of errata Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line "errata" according to Leo Diaz. Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po1errata Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. c, po15d, and po17b, most resulting from calls to previous versions of errata Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. "errata" according to Leo Diaz. Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po1errata Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. c, po15d, and po17b, most resulting from calls to previous versions of errata Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. is:ut"errata" according to Leo Diaz. Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po1errata Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. c, po15d, and po17b, most resulting from calls to previous versions of errata Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 7-1errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. 8 of the text, errata Leo Diaz Errors in the MATLAB code, Antenna Engineering Using Physical OpticsThere are errors in the MATLAB code files po09b, po13c, po15d, and po17b, most resulting from calls to previous versions of 3 m-file functions: incorrect name-----------------correct name unitr-------------------------norm01 crossr------------------------cross01 vlenr-------------------------length01These errors can be corrected by making the following changes:1. on m-file po09b, listed in pages 147-148 of the text, 4 lines must be changed:line 22 is:ut2=ones(Na,1)*uni. lines must be changed:line 22 is:ut2=ones(Na,1)*uni. =ones(Na,1)*uni. A Customer said Antenna Engineer. Good book. It really goes into detail. The MATLAB code does not work due to missing functions "unitr" and "crossr".. T. J. said errata web page? is there one?. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 11errata web page? is there one? Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. . Fig errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. ."errata web page? is there one?" according to T. J.. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 11errata web page? is there one? Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. . Fig errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. 6 which has sin^"errata web page? is there one?" according to T. J.. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 11errata web page? is there one? Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. . Fig errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^"errata web page? is there one?" according to T. J.. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 11errata web page? is there one? Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. . Fig errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. errata web page? is there one? T. J. Excellent book with lots of examples that are very practical. You won't have to reinvent the wheel here, and still have basic insights to what's going on. However i found an error to page 113. Fig 4.1 is wrong and doesn't represent the output of po05.m code.It does not represent the power calculated in eq. 4.26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. .26 which has sin^2 dependence. sin = 0 at 0 deg and 180 deg, with max at 90 degree.The output of po05.m code has x axis from 0 to 180 degrees, when plotted the minimum is at 90 degree, and maximum at 0 and 180 degrees - a cos^2 dep. dep
He earned his M.S. Leo Diaz is a staff consultant at Ball Telecommunications Products Division, Broomfield, CO. in electrical engineering from Polytechnic Institute, New York. A member if the IEEE AP Society, Mr. in electrical engineering from Johns Hopkins University. . He received his M.S. Thomas Milligan is chief engineer at Mil